final Year Projects, Final Year Projects in Chennai, Software Projects, Embedded Projects, Microcontrollers Projects, DSP Projects, VLSI Projects, Matlab Projects, Java Projects, .NET Projects, IEEE Projects, IEEE 2009 Projects, IEEE 2009 Projects, Software, IEEE 2009 Projects, Embedded, Software IEEE 2009 Projects, Embedded IEEE 2009 Projects, Final Year Project Titles, Final Year Project Reports, Final Year Project Review, Robotics Projects, Mechanical Projects, Electrical Projects, Power Electronics Projects, Power System Projects, Model Projects, Java Projects, J2EE Projects, Engineering Projects, Student Projects, Engineering College Projects, MCA Projects, BE Projects, BTech Projects, ME Projects, MTech Projects, Wireless Networks Projects, Network Security Projects, Networking Projects, final year projects, ieee projects, student projects, college projects, ieee projects in chennai, java projects, software ieee projects, embedded ieee projects, "ieee2009projects", "final year projects", "ieee projects", "Engineering Projects", "Final Year Projects in Chennai", "Final year Projects at Chennai", Java Projects, ASP.NET Projects, VB.NET Projects, C# Projects, Visual C++ Projects, Matlab Projects, NS2 Projects, C Projects, Microcontroller Projects, ATMEL Projects, PIC Projects, ARM Projects, DSP Projects, VLSI Projects, FPGA Projects, CPLD Projects, Power Electronics Projects, Electrical Projects, Robotics Projects, Solor Projects, MEMS Projects, J2EE Projects, J2ME Projects, AJAX Projects, Structs Projects, EJB Projects, Real Time Projects, Live Projects, Student Projects, Engineering Projects, MCA Projects, MBA Projects, College Projects, BE Projects, BTech Projects, ME Projects, MTech Projects, M.Sc Projects, Final Year Java Projects, Final Year ASP.NET Projects, Final Year VB.NET Projects, Final Year C# Projects, Final Year Visual C++ Projects, Final Year Matlab Projects, Final Year NS2 Projects, Final Year C Projects, Final Year Microcontroller Projects, Final Year ATMEL Projects, Final Year PIC Projects, Final Year ARM Projects, Final Year DSP Projects, Final Year VLSI Projects, Final Year FPGA Projects, Final Year CPLD Projects, Final Year Power Electronics Projects, Final Year Electrical Projects, Final Year Robotics Projects, Final Year Solor Projects, Final Year MEMS Projects, Final Year J2EE Projects, Final Year J2ME Projects, Final Year AJAX Projects, Final Year Structs Projects, Final Year EJB Projects, Final Year Real Time Projects, Final Year Live Projects, Final Year Student Projects, Final Year Engineering Projects, Final Year MCA Projects, Final Year MBA Projects, Final Year College Projects, Final Year BE Projects, Final Year BTech Projects, Final Year ME Projects, Final Year MTech Projects, Final Year M.Sc Projects, IEEE Java Projects, ASP.NET Projects, VB.NET Projects, C# Projects, Visual C++ Projects, Matlab Projects, NS2 Projects, C Projects, Microcontroller Projects, ATMEL Projects, PIC Projects, ARM Projects, DSP Projects, VLSI Projects, FPGA Projects, CPLD Projects, Power Electronics Projects, Electrical Projects, Robotics Projects, Solor Projects, MEMS Projects, J2EE Projects, J2ME Projects, AJAX Projects, Structs Projects, EJB Projects, Real Time Projects, Live Projects, Student Projects, Engineering Projects, MCA Projects, MBA Projects, College Projects, BE Projects, BTech Projects, ME Projects, MTech Projects, M.Sc Projects, IEEE 2009 Java Projects, IEEE 2009 ASP.NET Projects, IEEE 2009 VB.NET Projects, IEEE 2009 C# Projects, IEEE 2009 Visual C++ Projects, IEEE 2009 Matlab Projects, IEEE 2009 NS2 Projects, IEEE 2009 C Projects, IEEE 2009 Microcontroller Projects, IEEE 2009 ATMEL Projects, IEEE 2009 PIC Projects, IEEE 2009 ARM Projects, IEEE 2009 DSP Projects, IEEE 2009 VLSI Projects, IEEE 2009 FPGA Projects, IEEE 2009 CPLD Projects, IEEE 2009 Power Electronics Projects, IEEE 2009 Electrical Projects, IEEE 2009 Robotics Projects, IEEE 2009 Solor Projects, IEEE 2009 MEMS Projects, IEEE 2009 J2EE P
Workshop - Best of Both Worlds_ Combine KG and Vector search for enhanced R...
Java Abs Building Intelligent Shopping Assistant Using Dat
1. BUILDING INTELLIGENT
SHOPPING ASSISTANT USING
DATA MINING
INTRODUCTION ABOUT DATA MINING
Generally, data mining otherwise called as data or knowledge discovery is the
process of analyzing data from different perspectives and summarizing it into
useful information namely the information that can be used to increase revenue,
cuts costs, or both.
Data mining software is one of a number of analytical tools for analyzing data. It
allows users to analyze data from many different dimensions or angles,
categorize it, and summarize the relationships identified.
Technically, data mining is the process of finding correlations or patterns among
dozens of fields in large relational databases. Although data mining is a
relatively new term, the technology is not.
Companies have used powerful computers to sift through volumes of
supermarket scanner data and analyze market research reports for years.
However, continuous innovations in computer processing power, disk storage,
and statistical software are dramatically increasing the accuracy of analysis
while driving down the cost.
DATA, INFORMATION, AND KNOWLEDGE
DATA
Data are any facts, numbers, or text that can be processed by a computer.
Today, organizations are accumulating vast and growing amounts of data in
different formats and different databases.
This includes:
• Operational or transactional data such as, sales, cost, inventory, payroll, and
accounting
• Non-operational data, such as industry sales, forecast data, and macro
economic data
• Meta data - data about the data itself, such as logical database design or
data dictionary definitions
INFORMATION
The patterns, associations, or relationships among all this data can provide
information. For example, analysis of retail point of sale transaction data can
yield information on which products are selling and when
2. KNOWLEDGE
Information can be converted into knowledge about historical patterns and future
trends. For example, summary information on retail supermarket sales can be
analyzed in light of promotional efforts to provide knowledge of consumer buying
behavior. Thus, a manufacturer or retailer could determine which items are most
susceptible to promotional efforts.
DATA WAREHOUSES
Dramatic advances in data capture, processing power, data transmission, and
storage capabilities are enabling organizations to integrate their various
databases into data warehouses. Data warehousing is defined as a process of
centralized data management and retrieval.
Data warehousing, like data mining, is a relatively new term although the
concept itself has been around for years. Data warehousing represents an ideal
vision of maintaining a central repository of all organizational data.
Centralization of data is needed to maximize user access and analysis.
Dramatic technological advances are making this vision a reality for many
companies.
And, equally dramatic advances in data analysis software are allowing users to
access this data freely. The data analysis software is what supports data mining.
WHAT CAN DATA MINING DO?
Companies with a strong consumer focus - retail, financial, communication, and
marketing organizations, primarily use data mining today.
It enables these companies to determine relationships among "internal" factors
such as price, product positioning, or staff skills, and "external" factors such as
economic indicators, competition, and customer demographics.
And, it enables them to determine the impact on sales, customer satisfaction,
and corporate profits. Finally, it enables them to "drill down" into summary
information to view detail transactional data.
With data mining, a retailer could use point-of-sale records of customer purchases
to send targeted promotions based on an individual's purchase history. By mining
demographic data from comment or warranty cards, the retailer could develop
products and promotions to appeal to specific customer segments.
HOW DOES DATA MINING WORK?
While large-scale information technology has been evolving separate
transaction and analytical systems, data mining provides the link between the
two. Data mining software analyzes relationships and patterns in stored
transaction data based on open-ended user queries.
Several types of analytical software are available: statistical, machine learning,
and neural networks.
3. Generally, any of four types of relationships are sought:
• Classes: Stored data is used to locate data in predetermined groups. For
example, a restaurant chain could mine customer purchase data to
determine when customers visit and what they typically order. This
information could be used to increase traffic by having daily specials.
• Clusters: Data items are grouped according to logical relationships or
consumer preferences. For example, data can be mined to identify market
segments or consumer affinities.
• Associations: Data can be mined to identify associations.
• Sequential patterns: Data is mined to anticipate behavior patterns and
trends. For example, an outdoor equipment retailer could predict the
likelihood of a backpack being purchased based on a consumer's purchase
of sleeping bags and hiking shoes.
DATA MINING CONSISTS OF FIVE MAJOR ELEMENTS
• Extract, transform, and load transaction data onto the data warehouse
system.
• Store and manage the data in a multidimensional database system.
• Provide data access to business analysts and information technology
professionals.
• Analyze the data by application software.
• Present the data in a useful format, such as a graph or table.
AIM/OBJECTIVE OF THE SYSTEM
The aim or objective of the proposed system, is to build a prototype for
intelligent shopping assistant using data mining that aids supermarket shoppers
and presents personalized promotions during the course of their visit.
Hence the software will act as an easier promotion tool that will contain
transaction based purchase data for predicting shopping lists for a large number
of grocery customers.
The proposed software’s primary objective is to predict the sampled data with
market basket analysis. This enables a supermarket or shopkeeper to analyze
the type of purchase made by the customer.
EXISTING SYSTEM
Generally a consumer-shopping store is an ideal environment to explore
ubiquitous computing applications.
Each week, millions of shoppers enters the store, in which they are
immersed with tens of thousands of distinct products choices, from which
ultimately they only select a few dozen of items
4. In all the supermarkets or consumer shopping models, the shop might not be
able to predict the kind of purchase made by the frequent customers
In this kind of model, the frequent customers might have a prominent list of
items, wherein the customers can be given flexibility by random choice of the
items displayed
So whenever the customers come, they do not have any facility for easy
shopping
Moreover the shopkeepers or the sales personnel might not be able to make
any predictions or association
Such a numerous database cannot be handled in a normal database queried.
Hence we are in an urge to develop a software prototype model, which will
be an intelligent, shopping assistant using data mining that aids in consumer
store shoppers and persistent personalized promotions during the course of
their visit using predictions.
PROPOSED SYSTEM
The proposed system is a software using data mining which will be having a
core capability by using learning algorithms to build consumer models for each
individual customer.
The main aim is to ground promotions in the context of an application that is
viewed as a useful tool by the customer white providing business benefits to set
retailers and packaged good companies.
THE ALGORITHMS USED ARE AS FOLLOWS
1) Similarity Clustering
2) Classifier Meta Classifier Algorithm
3) Data Segmentation Algorithm
4) Precision and Prediction Algorithms using Decision Trees
Once a model has been created by a data mining application, the model can
then be used to make predictions for new data. The process of using the model
is distinct from the process that creates the model.
Typically, a model is used multiple times after it is created to score different
databases. For example, consider a model that has been created to predict the
probability that a customer will purchase something from a catalog if it is sent to
them.
The model would be built by using historical data from customers and prospects
that were sent catalogs, as well as information about what they bought (if
anything) from the catalogs.
During the model-building process, the data mining application would use
information about the existing customers to build and validate the model.
5. In the end, the result is a model that would take details about the customer
(or prospects) as inputs and generate a number between 0 and 1 as the
output
The proposed system offers an inexpensive way to advertise and market
products and services and functions as a low cost, high impact channel for
your business.
These standards, which allow computers in different organizations to share
information over privately built, closed networks known as value-added
networks, helps for the easy use of online corporate purchasing.
PROPOSED SYSTEM HARDWARE REQUIREMENTS
HARDWARE
Processor - PIII or higher processor
RAM - 128 MB or higher
HDD - 40 GB or higher
FDD - 1.44 MB
MONITOR - LG/SAMSUNG colour
Keyboard / Mouse / ATX Cabinet
SOFTWARE
OPERATING SYSTEM : WIN 2000/WIN XP/WIN 98
SOFTWARE : JDK 1.3 OR HIGHER
DATABASE : Oracle 8i
MODULES TO BE IMPLEMENTED
1) BUILDING KNOWLEDGE BASE
2) TRANSACTION MONITOR
3) SIMILARITY CLUSTERING
4) CLASSIFICATION USING META CLASSIFICATION
5) DATA SEGMENTATION
6) DECISION TREES
7) PREDICTION ANALYSIS